Why is coronavirus origin tracing a challenging task for scientists?

2020-05-20 Xinhua Editor:Gu Liping

As the COVID-19 pandemic continues to ravage the world, the puzzle of where the virus originated is attracting global attention from science community.

To identify the origin of an unknown virus, scientists need to find out the pathogen that caused the disease and the animal carrier, that is, the natural host of the virus, according to Zhao Guoping, an academician of the Chinese Academy of Sciences.

Since the outbreak of SARS, global scientists have been searching for its source. They identified SARS-CoV as the pathogen. But it was not until 2015, 13 years after the outbreak, that the natural host of SARS-CoV, Rhinolophus sinicus, was revealed.

Questions are still waiting to be answered including whether Rhinolophus sinicus is the only natural host of SARS-CoV and how the virus varied when it encountered its intermediate host, civet cats.

Tracing the origin of the virus pathogen requires scientific evidence, including the biological evidence provided by etiology, clinical medicine and epidemiology and the molecular biological evidence provided by genetic sequencing and antibody detection, according to Zhao.

Scientists need to establish the connection between the two types of evidence, which is not easy, to confirm both findings before they can finally make the issue clear, he said.

The epidemiological investigation of the origin of an infectious disease usually starts from the contact history of the first infected patient, or "patient zero," which is even more difficult to confirm.

It is challenging to trace COVID-19 patient zero as it involves a large volume of complicated data, and the early cases might include asymptomatic infections short of medical records, said Liu Peipei, an expert at the Chinese Center for Disease Control and Prevention.

Jin Qi, head of the Institute of Medical Biology at the Chinese Academy of Medical Sciences, said patient zero has not been confirmed for the 1918 influenza pandemic, AIDS or the H1N1 flu that broke out in 2009. Tracing patient zero is a multi-disciplinary problem that requires a great deal of work from the medical and scientific circles.

The novel coronavirus spread extensively around the world since late 2019 and the single "patient zeroes" is absent in most countries, the latest study by the University College London Genetics Institute has shown.

"The results add to a growing body of evidence that SARS-CoV-2 (novel coronavirus) viruses share a common ancestor from late 2019, suggesting that this was when the virus jumped from a previous animal host, into people," the university said in a statement early this month.

The molecular biological evidence is also difficult to obtain.

Viruses are tricky, especially those whose genomes are made up of RNA rather than DNA. They mutate more and faster.

Zhao said coronavirus is an RNA virus, which is more tricky. Its genome is three times the size of the HIV genome and mutations including deletion and recombination are more likely to happen.

In the process of cross-species transmission, the virus will accumulate mutations to adapt to the human body, its new host, and spread in the population, he said.

He also mentioned that most of the mutations in the early stage might show no obvious manifestation in the infected, therefore this key evidence is hard to collect.

That is why the origin of COVID-19 remains a mystery despite the efforts of so many scientists around the world.

The search for the pathogenic origin of many diseases in human history, such as AIDS and SARS, has never stopped and is full of uncertainty due to its complexity, Zhao said.

"Some evidence, once lost, may never be found, and some facts may not be revealed even after long-term studies," he said, suggesting people should have reasonable expectations for the results of the search for the natural origin of the novel coronavirus.

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